GPIT生物制剂对5种观叶花卉茎叶性状的影响
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摘要
为了验证GPIT生物制剂在室内观叶花卉上的应用效果,通过对室内养殖的5种观叶花卉(吊兰、绿萝、斑马万年青、君子兰和虎皮兰)进行3次不同时间、不同浓度GPIT的叶面喷施试验,并调查相关性状。结果表明,GPIT生物制剂对5种观叶花卉茎叶生长的影响随着喷施次数和不同浓度的变化而变化,均能起到加快茎叶生长速度、增强茎叶叶绿素含量、提高植株抗病能力的效果,从而使花卉茎叶更加繁茂。
To verify the application effect of GPIT biological preparation on indoor pee-petting flowers, through the indoor breeding of 5 kinds of pee-petting flowers(chlorophyllum, chlorophyllum, zebra evergreen, clivia and tiger orchid), three times of different time and different concentration of leaf surface spraying GPIT experiment were conducted, and the related characters were investigated. The results showed that the effect of GPIT biologicals agent on the growth of stems and leaves of five peep-pit flowers varied with the application times and different concentrations. Both could accelerate the growth rate of stem and leaf, enhance the content of chlorophyll in stem and leaf, and improve the disease resistance of plants, thus making the flower stem and leaf more luxuriant.
To verify the application effect of GPIT biological preparation on indoor pee-petting flowers, through the indoor breeding of 5 kinds of pee-petting flowers(chlorophyllum, chlorophyllum, zebra evergreen, clivia and tiger orchid), three times of different time and different concentration of leaf surface spraying GPIT experiment were conducted, and the related characters were investigated. The results showed that the effect of GPIT biologicals agent on the growth of stems and leaves of five peep-pit flowers varied with the application times and different concentrations. Both could accelerate the growth rate of stem and leaf, enhance the content of chlorophyll in stem and leaf, and improve the disease resistance of plants, thus making the flower stem and leaf more luxuriant.
引文
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[3]王纶,王星玉,温琪汾,等. GPIT生物制剂在苹果树上的应用[J].山西农业科学,2013,41(6):567-571.
[4]高杨,王杰,石丽娟,等.烯效唑对谷子抗倒伏及光合色素含量的影响[J].山西农业科学,2017,45(8):1233-1236.
[5]王星玉.高光效强抗逆肥料-GPIT那氏齐齐发诱导剂[J].新型肥料,2016(10):15-22.
[6]闫萌萌,王铭伦,王洪波,等.光质对花生幼苗叶片光合色素含量及光合特性的影响[J].应用生态学报,2014,25(2):483-487.
[7]关兴照,石桂芳.那氏778诱导剂对大豆生长发育的影响[J].天津农业科学,2001,7(3):55-56.
[8]周振元,李文清,杨卫建,等.生长调节剂那氏齐齐发在小麦上的应用效果[J].河北农业科学,2008,12(2):78-79.
[9]王明有,杨秀风,郑延海,等.那氏778诱导剂浸种对冬小麦14C固化物生产及逆转分配的影响[J].麦类作物学报,2004,24(3):64-68.
[10]卢成达,郭志利,李阳,等.两种光合增效剂在谷子上的应用效果[J].农业科学通讯,2013(9):33-35.
[11]郑丽萍,史丽娟.光合作用增效剂在高粱上的应用[J].山西农业科学,2011,39(12):1269-1271.
[12]王纶,王星玉,温琪汾,等. GPIT生物制剂在中度盐碱地黍稷上的应用试验[J].山西农业科学,2014,42(3):247-250.
[13]王纶,王星玉,元改香,等. GPIT生物制剂在大白菜、西芹上的应用研究[J].山西农业科学,2008,36(9):37-39.
[14]那中元.那氏778复合生物制剂的研制及抗逆增产新技术研究[J].农业科技通讯,2003(7):44.
[15]王树红,王星玉.山西省农业生物技术推广项目,GPIT那氏齐齐发诱导剂实用手册[M].太原:山西省农村财政研究会,2010:1-12.
[16]王忠.植物生理学[M].北京:中国农业出版社,2009:13-14.